CN111447465A - Business flow state visualization processing method and device and computing equipment - Google Patents

Abstract

The invention discloses a visual processing method, a visual processing device, a computing device and a computer storage medium for a service flow state, wherein the visual processing method for the service flow state comprises the following steps: detecting a service flow processing request initiated by a user side to an intermediate server; setting a track flow number for a service flow corresponding to the service flow processing request, and updating the track flow number of the service flow according to the server information of an intermediate server or a total server currently processing the service flow; and obtaining a track state diagram of the service flow according to the track serial number of the service flow. According to the technical scheme provided by the invention, the transmission track of the service flow can be clearly reflected through the track flow number of the service flow, the analysis efficiency of the service flow state is effectively improved, the analysis accuracy is higher, the labor cost and the time cost for analyzing the service flow state are greatly reduced, the visual processing of the service flow state is realized, and the service flow state processing mode is optimized.

Description

Business flow state visualization processing method and device and computing equipment

Technical Field

The invention relates to the technical field of internet, in particular to a business flow state visualization processing method, a business flow state visualization processing device, a computing device and a computer storage medium.

Background

In a traffic processing system involving traffic flows, the traffic flows are often processed and transmitted using multiple tiers of servers. For the purposes of understanding the transmission trace of the traffic flow, performing link failure troubleshooting, and the like, the state of the traffic flow in the traffic processing system needs to be analyzed. In the prior art, a service operation and maintenance worker generally analyzes a log record and the like generated by a service processing system, so as to find a state of a service stream in the service processing system and determine a transmission trajectory of the service stream. However, in the case that the link of the business processing system is complex, the analysis process consumes a lot of labor cost and time cost, the analysis efficiency is low, and the analysis error is easy to occur.

Disclosure of Invention

In view of the above, the present invention is proposed to provide a traffic state visualization processing method, apparatus, computing device and computer storage medium that overcome or at least partially solve the above problems.

According to an aspect of the present invention, a method for visualizing a traffic flow state is provided, the method comprising:

detecting a service flow processing request initiated by a user side to an intermediate server;

setting a track flow number for a service flow corresponding to the service flow processing request, and updating the track flow number of the service flow according to the server information of an intermediate server or a total server currently processing the service flow;

and obtaining a track state diagram of the service flow according to the track serial number of the service flow.

According to another aspect of the present invention, there is provided a traffic flow status visualization processing apparatus, including:

the detection module is suitable for detecting a service flow processing request initiated by a user side to the intermediate server;

the processing module is suitable for setting a track flow number for the service flow corresponding to the service flow processing request and updating the track flow number of the service flow according to the server information of the intermediate server or the total server currently processing the service flow;

and the generating module is suitable for obtaining the track state diagram of the service flow according to the track serial number of the service flow.

According to yet another aspect of the present invention, there is provided a computing device comprising: the processor, the memory and the communication interface complete mutual communication through the communication bus;

the memory is used for storing at least one executable instruction, and the executable instruction enables the processor to execute the operation corresponding to the business flow state visualization processing method.

According to still another aspect of the present invention, a computer storage medium is provided, where at least one executable instruction is stored in the storage medium, and the executable instruction causes a processor to perform an operation corresponding to the above method for visualizing a traffic flow state.

According to the technical scheme provided by the invention, the track flow number is set for the service flow corresponding to the service flow processing request, the track flow number of the service flow is updated according to the server information of the intermediate server or the total server which processes the service flow at present, and the transmission track of the service flow can be clearly reflected through the track flow number of the service flow; and the state of the service flow can be visually shown according to the track state diagram of the service flow obtained according to the track serial number of the service flow, so that the visualized processing of the state of the service flow is realized, and the processing mode of the state of the service flow is optimized.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a flow diagram illustrating a traffic flow state visualization processing method according to an embodiment of the invention;

FIG. 2a is a flow chart diagram illustrating a traffic state visualization processing method according to another embodiment of the present invention;

FIG. 2b shows a schematic diagram of a track state diagram of a live video stream;

fig. 3 is a block diagram illustrating a structure of a traffic flow status visualization processing apparatus according to an embodiment of the present invention;

FIG. 4 shows a schematic structural diagram of a computing device according to an embodiment of the invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The service flow state visualization processing method provided by the invention can be applied to various service processing systems related to service flows. The service flow state visualization processing method provided by the invention is specifically explained in combination with a live scene, and the service flow is specifically a live video flow in the live scene. The live broadcast system is provided with a multi-level tree-shaped server topological structure and can comprise at least one intermediate server and a main server, the server level of the main server is higher than that of the at least one intermediate server, and the server level of the main server is the highest level. When the number of the at least one intermediate server is plural, the plural intermediate servers may be disposed in different server hierarchies. The live broadcast system transmits live broadcast video streams to a main server through at least one intermediate server according to live broadcast video stream uploading requests sent by main broadcast users through user sides, and the transmission direction of the live broadcast video streams is an uplink direction; the live broadcast system transmits the live broadcast video stream from the main server to at least one intermediate server according to a live broadcast video stream playing request sent by a watching user through a user side, and finally transmits the live broadcast video stream to the user side, wherein the transmission direction of the live broadcast video stream is a downlink direction.

Fig. 1 is a flowchart illustrating a traffic flow status visualization processing method according to an embodiment of the present invention, and as shown in fig. 1, the method includes the following steps:

step S101, detecting a service flow processing request initiated by a user end to an intermediate server.

When a user wants to upload a service flow or download a service flow, the user needs to initiate a service flow processing request to the intermediate server through the user side, where the service flow processing request may specifically be a service flow upload request or a service flow download request. Then, in step S101, a service flow processing request initiated by the user side to the intermediate server is detected, so as to set a service flow corresponding to the service flow processing request.

Taking the application of the present invention to a live broadcast system as an example, the service stream is specifically a live broadcast video stream, and the service stream processing request may specifically be a live broadcast video stream uploading request or a live broadcast video stream playing request. In the live broadcast system, the intermediate server may include an edge server and a convergence server, the edge server and the convergence server are disposed in different server hierarchies, the server hierarchy of the edge server is the lowest, the server hierarchy of the convergence server is higher than the server hierarchy of the edge server, and the server hierarchy of the total server is higher than the server hierarchy of the convergence server. Specifically, the convergence server may be a network communication operator server, such as a telecommunication operator server, a unicom operator server, etc.; the edge server is a network communication operator server corresponding to different regions, such as a Shanghai telecommunication operator server, a Shandong telecommunication operator server, a Shanghai communication operator server, a Shandong communication operator server and the like, and network connection is established between the edge server and a convergence server belonging to the same network communication operator.

Specifically, when a anchor user wants to upload a live video stream, the anchor user sends a live video stream upload request to an edge server through a user side; the edge server receives the live video stream uploaded by the user side, then transmits the live video stream to the convergence server, then the convergence server transmits the live video stream to the main server, and the main server processes and manages the live video stream. When a watching user wants to play a live video stream, the watching user sends a live video stream playing request to an edge server through a user side; according to the live video stream playing request, the main server searches for a live video stream corresponding to the live video stream playing request, transmits the found live video stream to the convergence server, transmits the live video stream to the edge server by the convergence server, and transmits the live video stream to the user side by the edge server for playing by the user side. The edge server and the convergence server may perform corresponding processing on the live video stream received by the edge server and the convergence server, which are not limited herein. Then, in step S101, a live video stream uploading request or a live video stream playing request initiated by the user side to the edge server is detected.

And step S102, setting a track flow number for the service flow corresponding to the service flow processing request.

In order to clearly understand the transmission track of the service flow, a track flow number is set for the service flow corresponding to the service flow processing request. The track serial number is information used for representing a transmission track of the service flow, and a person skilled in the art can set specific contents of the track serial number according to actual needs, which is not limited herein.

And step S103, updating the track serial number of the service flow according to the server information of the intermediate server or the total server currently processing the service flow.

Because the service flow corresponding to the service flow processing request is processed and transmitted in the intermediate server and the main server according to the service flow processing request, in order to facilitate understanding of the current transmission track of the service flow, the track flow number of the service flow can be updated according to the server information of the intermediate server or the main server currently processing the service flow. The server information may include information related to a server, such as a server hierarchy.

It is assumed that the intermediate servers include edge servers and aggregation servers. When the service flow processing request is a live video flow uploading request, according to the live video flow uploading request, the live video flow is transmitted to the main server through the edge server and the convergence server in sequence. When the service flow processing request is a live video flow playing request, according to the live video flow playing request, the live video flow is transmitted to the edge server through the main server and the convergence server in sequence.

Specifically, in the process that a live video stream is transmitted to a main server sequentially through an edge server and a convergence server, when the edge server receives the live video stream uploaded by a user side and correspondingly processes the live video stream, if the server currently processing the live video stream is the edge server, updating a track serial number of the live video stream according to server information of the edge server to obtain a track serial number 11; when the convergence server receives the live video stream transmitted by the edge server and correspondingly processes the live video stream, if the server currently processing the live video stream is the convergence server, updating the track serial number of the live video stream according to the server information of the convergence server to obtain a track serial number 12; when the main server receives the live video stream transmitted by the convergence server and correspondingly processes the live video stream, if the server currently processing the live video stream is the main server, the track serial number of the live video stream is updated according to the server information of the main server, and the track serial number 13 is obtained.

In the process that the live video stream is transmitted to the edge server sequentially through the main server and the convergence server, the main server searches for the live video stream corresponding to the live video stream playing request according to the live video stream playing request, and then the server currently processing the live video stream is the main server, and the track serial number of the live video stream is updated according to the server information of the main server to obtain a track serial number 21; when the convergence server receives the live video stream transmitted by the main server and correspondingly processes the live video stream, if the server currently processing the live video stream is the convergence server, updating the track serial number of the live video stream according to the server information of the convergence server to obtain a track serial number 22; when the edge server receives the live video stream transmitted by the convergence server and correspondingly processes the live video stream, if the server currently processing the live video stream is the edge server, updating the track serial number of the live video stream according to the server information of the edge server to obtain a track serial number 23; the edge server can then provide the live video stream to the client for the client to play.

And step S104, obtaining a track state diagram of the service flow according to the track serial number of the service flow.

The track flow number of the service flow is updated according to the server information of the intermediate server or the total server which processes the service flow, and the transmission track of the service flow can be clearly reflected, so that the transmission track of the service flow can be drawn according to the track flow number of the service flow, and the track state diagram of the service flow is obtained.

According to the visualized processing method for the service flow state provided by the embodiment, the track flow number is set for the service flow corresponding to the service flow processing request, the track flow number of the service flow is updated according to the server information of the intermediate server or the total server currently processing the service flow, and the transmission track of the service flow can be clearly reflected through the track flow number of the service flow; and the state of the service flow can be visually shown according to the track state diagram of the service flow obtained according to the track serial number of the service flow, so that the visualized processing of the state of the service flow is realized, and the processing mode of the state of the service flow is optimized.

Fig. 2a is a flow chart of a traffic flow status visualization processing method according to another embodiment of the present invention, and as shown in fig. 2a, the method includes the following steps:

step S201, detecting a service flow processing request initiated by a user to an intermediate server.

Taking the application of the present invention to a live broadcast system as an example, the service stream is specifically a live broadcast video stream, and the service stream processing request may specifically be a live broadcast video stream uploading request or a live broadcast video stream playing request. Specifically, when a user wants to upload or play a live video stream, the user initiates a live video stream upload request or a live video stream play request to an intermediate server with the lowest server hierarchy. The number of the intermediate servers and the server hierarchy of the intermediate servers can be set by those skilled in the art according to actual needs, and are not limited herein. For example, when the number of the intermediate servers is plural, the plural intermediate servers may be disposed in different server hierarchies.

In one specific application, the intermediate server comprises an edge server and a convergence server, the edge server and the convergence server are arranged in different server levels, the server level of the edge server is the lowest, the server level of the convergence server is higher than that of the edge server, and the server level of the total server is higher than that of the convergence server. When the anchor user wants to upload the live video stream, the anchor user sends a live video stream uploading request to the edge server through the user side; when the watching user wants to play the live video stream, the watching user sends a live video stream playing request to the edge server through the user side. In step S201, a live video stream uploading request or a live video stream playing request initiated by a user side to an edge server is detected.

Step S202, setting a track flow number for the service flow corresponding to the service flow processing request.

Wherein, the track serial number may include: the track serial number and the track serial number may further include other information, which is not limited herein. For example, the trace stream number may further include the service stream identifier and the request time for the user terminal to initiate the service stream processing request. Specifically, the traffic flow identifier is information for uniquely identifying the traffic flow, and for example, the traffic flow identifier may be a traffic flow ID or a traffic flow name. According to the method and the device, the track flow number of the service flow corresponding to the same service flow processing request can be conveniently and effectively determined through the service flow identifier in the track flow number and the request time of the user side for initiating the service flow processing request.

Step S203, updating the track serial number in the track serial number of the service flow according to the server hierarchy of the intermediate server or the total server where the service flow is currently located.

The service flow corresponding to the service flow processing request is processed and transmitted in the intermediate server and the main server, and the track flow number of the service flow needs to be updated at each transmission stage in the transmission process so as to know the transmission track of the service flow. Specifically, the service stream identifier in the track flow number corresponding to each transmission phase is the same as the request time of the user terminal initiating the service stream processing request, but the track sequence number in the track flow number corresponding to each transmission phase is different, so that the track sequence number in the track flow number of the service stream can be updated according to the server level of the intermediate server or the master server where the service stream is currently located.

Wherein the server hierarchy of the master server is higher than the server hierarchy of the intermediate servers. Those skilled in the art can set the update method of the track serial number according to actual needs, which is not limited herein. For example, the track sequence number is incremented or decremented as the server hierarchy increases.

Taking the example that the track sequence number increases with the rise of the server hierarchy as an example, when the traffic flow is transmitted from the user side to the main server, the transmission direction is the uplink direction, the traffic flow is transmitted to the main server with a higher server hierarchy through the middle server with a lower server hierarchy, that is, the server hierarchy rises sequentially, so that the track sequence number of the traffic flow can increase with the rise of the server hierarchy; in the process of transmitting the service flow from the main server to the user side, the transmission direction is a downlink direction, the service flow is transmitted to the intermediate server with a lower server hierarchy through the main server with a higher server hierarchy, that is, the server hierarchies are sequentially reduced, and the track sequence number of the service flow can be decreased with the reduction of the server hierarchies. In addition, when the number of the intermediate servers in the same server hierarchy is multiple and/or the number of the total servers in the same server hierarchy is multiple, in order to facilitate the identification of the intermediate server processing the traffic flow from the multiple intermediate servers in the same server hierarchy, the total server processing the traffic flow is identified from the multiple total servers, and after the trace flow number of the traffic flow is updated, the trace flow number is stored by the intermediate server or the total server where the traffic flow is currently located.

For example, in step S201, it is detected that the user terminal is 12: 00: 00 a live video stream uploading request for uploading a live video stream named "SN 123" to the edge server, then setting a track serial number for the live video stream, where a service stream identifier in the track serial number may be "SN 123", and a request time in the track serial number is "12/10/20/2018: 00: 00". According to the live video stream uploading request, the live video stream is sequentially transmitted to a main server through an edge server and a convergence server, the transmission process can be divided into a transmission stage 11 to a transmission stage 13, wherein the transmission stage 11 is used for the edge server to receive the live video stream uploaded by a user side and correspondingly process the live video stream, the transmission stage 12 is used for the convergence server to receive the live video stream transmitted by the edge server and correspondingly process the live video stream, and the transmission stage 13 is used for the main server to receive the live video stream transmitted by the convergence server and correspondingly process the live video stream.

In the transmission stage 11, if the server where the live video stream is currently located is an edge server, and the server hierarchy of the edge server is the lowest, the track serial number in the track serial number of the live video stream is updated according to the server hierarchy of the edge server to obtain a track serial number 11, and the track serial number 11 is stored in the edge server, where a service stream identifier in the track serial number 11 is "SN 123", and a request time is "12 in 2018, 10 months, 20 days: 00: 00', track number is "1"; in the transmission stage 12, a server where the live video stream is currently located is a convergence server, and a server hierarchy of the convergence server is higher than a server hierarchy of an edge server and lower than a server hierarchy of a total server, updating a track serial number in a track serial number of the live video stream according to the server hierarchy of the convergence server, for example, adding 1 to the track serial number to obtain a track serial number 12, and storing the track serial number 12 in the convergence server, wherein a service stream identifier in the track serial number 12 is "SN 123", and a request time is "12 in 2018, 10, 20: 00: 00 'and a track serial number of 2'; in the transmission stage 13, the server where the live video stream is currently located is a master server, and the server hierarchy of the master server is the highest, then according to the server hierarchy of the master server, the track serial number in the track serial number of the live video stream is updated, for example, the track serial number is subjected to plus 1 processing to obtain a track serial number 13, and the track serial number 13 is stored in the master server, where a service stream identifier in the track serial number 13 is "SN 123", and a request time is "12 in 2018, 10, 20: 00: 00' and the track number is 3.

For another example, in step S201, it is detected that the user terminal is located at 10 months, 20 days 13 in 2018: 10: 00 sending a live video stream playing request for playing a live video stream with the name of SN123 to the edge server, setting a track serial number for the live video stream, where a service stream identifier in the track serial number may be "SN 123", and a request time in the track serial number is "2018, 10, 20, 13: 10: 00". According to the live video stream playing request, the live video stream is transmitted to the edge server through the main server and the convergence server in sequence so that the edge server can provide the live video stream to the user side, the transmission process can be divided into a transmission stage 21 and a transmission stage 23, wherein the transmission stage 21 is that the main server searches the live video stream corresponding to the live video stream playing request according to the live video stream playing request, the transmission stage 22 is that the convergence server receives the live video stream transmitted by the main server and correspondingly processes the live video stream, and the transmission stage 23 is that the edge server receives the live video stream transmitted by the convergence server and correspondingly processes the live video stream.

In the transmission stage 21, the server where the live video stream is currently located is a master server, and the server hierarchy of the master server is the highest, then according to the server hierarchy of the master server, the track serial number in the track serial number of the live video stream is updated to obtain a track serial number 21, and the track serial number 21 is stored in the master server, wherein the service stream identifier in the track serial number 21 is "SN 123", and the request time is "13 in 2018, 10 months, 20 days: 10: 00 ' and track serial number is ' 3 '; in the transmission stage 22, a server where the live video stream is currently located is a convergence server, and a server hierarchy of the convergence server is higher than a server hierarchy of an edge server and lower than a server hierarchy of a total server, the track serial number in the track serial number of the live video stream is updated according to the server hierarchy of the convergence server, for example, the track serial number is reduced by 1 to obtain a track serial number 22, and the track serial number 22 is stored in the convergence server, where a service stream identifier in the track serial number 22 is "SN 123", and a request time is "13 in 2018, 10, 20 th month: 10: 00 'and a track serial number of 2'; in the transmission stage 23, if the server where the live video stream is currently located is an edge server, and the server hierarchy of the edge server is the lowest, the track serial number in the track serial number of the live video stream is updated according to the server hierarchy of the edge server, for example, the track serial number is subtracted by 1 to obtain a track serial number 23, and the track serial number 23 is stored in the edge server, where a service stream identifier in the track serial number 23 is "SN 123", and a request time is "2018, 10, 20, 13: 10: 00' and the track number is 1.

Step S204, a track state diagram of the service flow is obtained according to the track serial number in the track serial number of the service flow and the log record related to the service flow.

The method comprises the steps of determining an association relationship between intermediate servers and/or an association relationship between the intermediate servers and a main server according to a track serial number in a track serial number of a service flow, then determining a transmission direction of the service flow according to a log record related to the service flow, and then obtaining a track state diagram of the service flow according to the association relationship between the intermediate servers and/or the association relationship between the intermediate servers and the main server and the transmission direction of the service flow.

Specifically, the intermediate server and the main server for processing the service flow store the track serial number of the service flow, and for a certain service flow processing request, whether the intermediate server and/or the main server store the track serial number of the service flow corresponding to the service flow processing request is searched, and if yes, the association relationship between the intermediate servers storing the track serial numbers of the service flow and/or the association relationship between the intermediate servers storing the track serial numbers of the service flow and the main server is determined according to the ascending order or the descending order of the track serial numbers in the track serial numbers of the service flow. In addition, the intermediate server and the main server that process the service flow also store log records related to the service flow, and the log records related to the service flow record the transmission direction of the service flow, and the transmission direction may be specifically an uplink direction or a downlink direction. After the association relationship between the intermediate servers and/or the association relationship between the intermediate servers and the main server and the transmission direction of the service flow are determined, association lines can be drawn between the intermediate servers and/or between the intermediate servers and the main server according to the association relationship between the intermediate servers and/or the association relationship between the intermediate servers and the main server, and then the association directions are drawn for the drawn association lines according to the transmission direction of the service flow, so that a track state diagram of the service flow is obtained. The service flow state can be visually displayed through the track state diagram, and the link fault troubleshooting of the service processing system can be realized based on the track state diagram.

Assuming that the service stream is a live video stream, the track serial number in the track serial number increases with the rise of the server hierarchy, the edge server includes an edge server a to an edge server F, the aggregation server includes an aggregation server a to an aggregation server D, and the main server includes a main server a and a main server B. The convergence server A and the convergence server B are telecom operator servers, the edge servers A to D are telecom operator servers corresponding to different regions, the convergence server C and the convergence server D are Unicom operator servers, and the edge server E and the edge server F are Unicom operator servers corresponding to different regions. Aiming at a telecom operator, an edge server A and a convergence server A are preferred servers, and an edge server B to an edge server D and a convergence server B are alternative servers; aiming at a Unicom operator, an edge server E and a convergence server C are preferred servers, and an edge server F and a convergence server D are alternative servers; the total server A is a preferred server, and the total server B is an alternative server. When the preferred server can normally run, processing and transmitting the live video stream by using the preferred server; and when the preferred server has faults and cannot normally run, selecting one alternative server to continue processing and transmitting the live video stream according to the arrangement sequence of the corresponding alternative servers.

Aiming at the fact that the service flow processing request is a live video flow uploading request, the name of a live video flow corresponding to the live video flow uploading request is ' SN123 ', the request time of a user side for initiating the live video flow uploading request is ' 2018, 10, month, 20, day 12: 00: 00". Searching whether the service flow identifier is 'SN 123' and the request time is '2018, 10, month, 20, day 12' or not stored in each edge server, each aggregation server and each main server: 00: track number 00 ". If the edge server a, the aggregation server B and the main server a are found to store the service flow identifier "SN 123" and the request time "12 in 2018, 10 months, 20 days: 00: 00 ", wherein the track serial number in the track serial numbers stored by the edge server a is" 1 ", the track serial numbers in the track serial numbers stored by the aggregation server a and the aggregation server B are both" 2 ", the track serial number in the track serial number stored by the main server a is" 3 ", and according to the log records stored by the edge server a, the convergence server B and the main server a and related to the live video stream, if the transmission direction of the live video stream is the uplink direction, it is determined that there is an association relationship between the edge server a and the aggregation server a, between the edge server a and the aggregation server B, and between the aggregation server B and the main server a according to the ascending order of the track serial numbers in the track serial number of the live video stream, and then the obtained track state diagram of the live video stream may be as shown in the left diagram in fig. 2B. The method comprises the steps that an edge server A and a convergence server A are connected in an associated mode, the edge server A and the convergence server B are connected in an associated mode, only the convergence server B and a main server A are connected in an associated mode, the convergence server B serving as an alternative server is used for processing and transmitting the live video stream, and therefore the fact that the convergence server A serving as an optimal server fails to operate normally when the live video stream is processed and transmitted can be conveniently determined.

Aiming at the fact that the service flow processing request is a live video flow playing request, the name of a live video flow corresponding to the live video flow playing request is ' SN123 ', the request time of a user side for initiating the live video flow playing request is ' 2018, 10, month, 20, day 13: 10: 00". Searching whether the service flow identifier is 'SN 123' and the request time is '2018, 10 month, 20 days 13' or not stored in each edge server, each aggregation server and each main server: 10: track number 00 ". If the edge server E, the aggregation server C and the main server a are found to store the service flow identifier "SN 123" and the request time "2018, 10 months, 20 days 13: 10: 00 ", where a track serial number in the track serial number stored by the edge server E is" 1 ", a track serial number in the track serial number stored by the aggregation server C is" 2 ", a track serial number in the track serial number stored by the main server a is" 3 ", and it is known from log records stored by the edge server E, the aggregation server C, and the main server a and related to the live video stream that the transmission direction of the live video stream is a downlink direction, and then there is an association relationship between the main server a and the aggregation server C and between the aggregation server C and the edge server E according to a descending order of the track serial numbers in the track serial number of the live video stream, and then the obtained track state diagram of the live video stream may be as shown in the right diagram in fig. 2 b. The main server B, the convergence server D and the edge server F which are alternative servers are not used for processing and transmitting the live video stream, which indicates that the main server a, the convergence server C and the edge server E can normally operate and have no fault when processing and transmitting the live video stream.

According to the visualized processing method for the service flow state provided by the embodiment, the track flow number of the service flow corresponding to the same service flow processing request can be conveniently and effectively determined through the service flow identifier in the track flow number and the request time for the user side to initiate the service flow processing request; in the transmission process of the service flow, the track serial number in the track serial number is increased or decreased along with the increase of the server level of an intermediate server or a total server where the service flow is currently located, the transmission track of the service flow can be clearly and accurately reflected through the track serial number of the service flow, the analysis efficiency of the service flow state is effectively improved, the analysis accuracy is higher, the association relationship between the intermediate servers and/or the association relationship between the intermediate server and the total server can be conveniently determined, and the service flow state is visually shown through a track state diagram of the service flow, so that service operation and maintenance personnel can conveniently use the service flow; in addition, link failure troubleshooting of the service processing system can be conveniently carried out on the basis of the track state diagram of the service flow, and the link failure troubleshooting efficiency is effectively improved.

Fig. 3 is a block diagram illustrating a structure of a traffic flow status visualization processing apparatus according to an embodiment of the present invention, and as shown in fig. 3, the apparatus includes: a detection module 310, a processing module 320, and a generation module 330.

The detection module 310 is adapted to: and detecting a service flow processing request initiated by a user side to the intermediate server.

The processing module 320 is adapted to: and setting a track flow number for the service flow corresponding to the service flow processing request, and updating the track flow number of the service flow according to the server information of the intermediate server or the total server currently processing the service flow.

Wherein, the track serial number includes: the track serial number, in addition, the track serial number may further include: the service flow identification and the request time of the user side for initiating the service flow processing request. The processing module 320 is further adapted to: updating the track serial number in the track serial number of the service flow according to the server level of an intermediate server or a total server where the service flow is currently located; wherein the server hierarchy of the master server is higher than the server hierarchy of the intermediate servers; the track sequence number is incremented or decremented as the server hierarchy rises.

Optionally, in the process of transmitting the service flow from the user side to the main server, the server levels sequentially increase, and the track sequence number of the service flow increases with the increase of the server levels; in the process of transmitting the service flow from the main server to the user terminal, the server hierarchy is sequentially lowered, and the track sequence number of the service flow is decreased along with the lowering of the server hierarchy.

The generation module 330 is adapted to: and obtaining a track state diagram of the service flow according to the track serial number of the service flow.

Optionally, the generating module 330 is further adapted to: and obtaining a track state diagram of the service flow according to the track serial number in the track serial number of the service flow and the log record related to the service flow.

Optionally, the generating module 330 is further adapted to: determining an association relationship between the intermediate servers and/or an association relationship between the intermediate servers and the total server according to the track serial number in the track serial number of the service stream; determining the transmission direction of the service flow according to the log record related to the service flow; and obtaining a track state diagram of the service flow according to the incidence relation between the intermediate servers and/or the incidence relation between the intermediate servers and the total server and the transmission direction of the service flow.

According to the service flow state visualization processing device provided by the embodiment, the track flow number of the service flow corresponding to the same service flow processing request can be conveniently and effectively determined through the service flow identifier in the track flow number and the request time for the user side to initiate the service flow processing request; in the transmission process of the service flow, the track serial number in the track serial number is increased or decreased along with the increase of the server level of an intermediate server or a total server where the service flow is currently located, the transmission track of the service flow can be clearly and accurately reflected through the track serial number of the service flow, the analysis efficiency of the service flow state is effectively improved, the analysis accuracy is higher, the association relationship between the intermediate servers and/or the association relationship between the intermediate server and the total server can be conveniently determined, and the service flow state is visually shown through a track state diagram of the service flow, so that service operation and maintenance personnel can conveniently use the service flow; in addition, link failure troubleshooting of the service processing system can be conveniently carried out on the basis of the track state diagram of the service flow, and the link failure troubleshooting efficiency is effectively improved.

The invention also provides a nonvolatile computer storage medium, and the computer storage medium stores at least one executable instruction which can execute the service flow state visualization processing method in any method embodiment.

Fig. 4 is a schematic structural diagram of a computing device according to an embodiment of the present invention, and the specific embodiment of the present invention does not limit the specific implementation of the computing device.

As shown in fig. 4, the computing device may include: a processor (processor)402, a Communications Interface 404, a memory 406, and a Communications bus 408.

Wherein:

the processor 402, communication interface 404, and memory 406 communicate with each other via a communication bus 408.

A communication interface 404 for communicating with network elements of other devices, such as clients or other servers.

The processor 402 is configured to execute the program 410, and may specifically execute relevant steps in the embodiment of the traffic flow state visualization processing method.

In particular, program 410 may include program code comprising computer operating instructions.

The processor 402 may be a central processing unit CPU, or an application specific Integrated circuit asic, or one or more Integrated circuits configured to implement an embodiment of the present invention. The computing device includes one or more processors, which may be the same type of processor, such as one or more CPUs; or may be different types of processors such as one or more CPUs and one or more ASICs.

And a memory 406 for storing a program 410. Memory 406 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The program 410 may be specifically configured to enable the processor 402 to execute the traffic flow state visualization processing method in any of the above-described method embodiments. For specific implementation of each step in the program 410, reference may be made to corresponding steps and corresponding descriptions in units in the foregoing embodiment of visualizing a service flow state, which are not described herein again. It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described devices and modules may refer to the corresponding process descriptions in the foregoing method embodiments, and are not described herein again.

The algorithms and displays presented herein are not inherently related to any particular computer, virtual machine, or other apparatus. Various general purpose systems may also be used with the teachings herein. The required structure for constructing such a system will be apparent from the description above. Moreover, the present invention is not directed to any particular programming language. It is appreciated that a variety of programming languages may be used to implement the teachings of the present invention as described herein, and any descriptions of specific languages are provided above to disclose the best mode of the invention.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: that the invention as claimed requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Those skilled in the art will appreciate that the modules in the device in an embodiment may be adaptively changed and disposed in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and furthermore they may be divided into a plurality of sub-modules or sub-units or sub-components. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or elements of any method or apparatus so disclosed, may be combined in any combination, except combinations where at least some of such features and/or processes or elements are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the claims, any of the claimed embodiments may be used in any combination.

The various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that a microprocessor or Digital Signal Processor (DSP) may be used in practice to implement some or all of the functionality of some or all of the components in accordance with embodiments of the present invention. The present invention may also be embodied as apparatus or device programs (e.g., computer programs and computer program products) for performing a portion or all of the methods described herein. Such programs implementing the present invention may be stored on computer-readable media or may be in the form of one or more signals. Such a signal may be downloaded from an internet website or provided on a carrier signal or in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

The invention discloses: A1. a method for visually processing a traffic flow state, the method comprising:

detecting a service flow processing request initiated by a user side to an intermediate server;

setting a track flow number for a service flow corresponding to the service flow processing request, and updating the track flow number of the service flow according to the server information of an intermediate server or a total server which currently processes the service flow;

and obtaining a track state diagram of the service flow according to the track serial number of the service flow.

A2. The method of a1, wherein the trajectory water number includes: track number; the updating the track serial number of the service flow according to the server information of the intermediate server or the total server which currently processes the service flow further comprises:

updating the track serial number in the track serial number of the service flow according to the server level of the intermediate server or the total server where the service flow is currently located; wherein the overall server has a server hierarchy level higher than the intermediate servers; the track sequence number is incremented or decremented as the server hierarchy rises.

A3. The method according to a2, wherein the server hierarchy sequentially increases during the transmission of the traffic flow from the user side to the general server, and the track sequence number of the traffic flow increases as the server hierarchy increases;

in the process of transmitting the service flow from the main server to the user side, the server levels are sequentially reduced, and the track sequence number of the service flow is decreased with the reduction of the server levels.

A4. The method of A2 or A3, wherein the trajectory water number further comprises: the service flow identification and the request time of the user side for initiating the service flow processing request.

A5. The method according to any one of a2-a4, wherein the obtaining the trajectory state diagram of the traffic flow according to the trajectory flow number of the traffic flow further comprises:

and obtaining a track state diagram of the service flow according to the track serial number in the track serial number of the service flow and the log record related to the service flow.

A6. The method according to a5, wherein the obtaining the trace state diagram of the service flow according to the trace sequence number in the trace stream number of the service flow and the log record associated with the service flow further includes:

determining an association relationship between the intermediate servers and/or an association relationship between the intermediate servers and the total server according to the track serial number in the track serial number of the service stream;

determining the transmission direction of the service flow according to the log record related to the service flow;

and obtaining a track state diagram of the service flow according to the incidence relation between the intermediate servers and/or the incidence relation between the intermediate servers and the total server and the transmission direction of the service flow.

The invention also discloses: B7. a traffic flow state visualization processing apparatus, the apparatus comprising:

the detection module is suitable for detecting a service flow processing request initiated by a user side to the intermediate server;

the processing module is suitable for setting a track flow number for the service flow corresponding to the service flow processing request and updating the track flow number of the service flow according to the server information of the current intermediate server or the total server for processing the service flow;

and the generating module is suitable for obtaining the track state diagram of the service flow according to the track serial number of the service flow.

B8. The apparatus of B7, wherein the trajectory water number comprises: track number; the processing module is further adapted to:

updating the track serial number in the track serial number of the service flow according to the server level of the intermediate server or the total server where the service flow is currently located; wherein the overall server has a server hierarchy level higher than the intermediate servers; the track sequence number is incremented or decremented as the server hierarchy rises.

B9. The device according to B8, wherein the server hierarchy sequentially increases during the transmission of the traffic flow from the user side to the general server, and the track sequence number of the traffic flow increases as the server hierarchy increases;

in the process of transmitting the service flow from the main server to the user side, the server levels are sequentially reduced, and the track sequence number of the service flow is decreased with the reduction of the server levels.

B10. The apparatus of B8 or B9, wherein the trajectory water number further comprises: the service flow identification and the request time of the user side for initiating the service flow processing request.

B11. The apparatus of any one of B8-B10, wherein the generation module is further adapted to:

and obtaining a track state diagram of the service flow according to the track serial number in the track serial number of the service flow and the log record related to the service flow.

B12. The apparatus of B11, wherein the generation module is further adapted to:

determining an association relationship between the intermediate servers and/or an association relationship between the intermediate servers and the total server according to the track serial number in the track serial number of the service stream;

determining the transmission direction of the service flow according to the log record related to the service flow;

and obtaining a track state diagram of the service flow according to the incidence relation between the intermediate servers and/or the incidence relation between the intermediate servers and the total server and the transmission direction of the service flow.

The invention also discloses: C13. a computing device, comprising: the system comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete mutual communication through the communication bus;

the memory is used for storing at least one executable instruction, and the executable instruction causes the processor to execute the operation corresponding to the traffic flow state visualization processing method as described in any one of A1-A6.

The invention also discloses: D14. a computer storage medium having at least one executable instruction stored therein, the executable instruction causing a processor to perform operations corresponding to the traffic flow state visualization processing method as described in any one of a1-a 6.

Claims (10)

1. A method for visually processing a traffic flow state, the method comprising:

detecting a service flow processing request initiated by a user side to an intermediate server;

setting a track flow number for a service flow corresponding to the service flow processing request, and updating the track flow number of the service flow according to the server information of an intermediate server or a total server which currently processes the service flow;

and obtaining a track state diagram of the service flow according to the track serial number of the service flow.

2. The method of claim 1, wherein the track number comprises: track number; the updating the track serial number of the service flow according to the server information of the intermediate server or the total server which currently processes the service flow further comprises:

updating the track serial number in the track serial number of the service flow according to the server level of the intermediate server or the total server where the service flow is currently located; wherein the overall server has a server hierarchy level higher than the intermediate servers; the track sequence number is incremented or decremented as the server hierarchy rises.

3. The method according to claim 2, wherein the server hierarchy sequentially increases in the process of transmitting the traffic flow from the user terminal to the general server, and the track sequence number of the traffic flow increases as the server hierarchy increases;

in the process of transmitting the service flow from the main server to the user side, the server levels are sequentially reduced, and the track sequence number of the service flow is decreased with the reduction of the server levels.

4. The method of claim 2 or 3, wherein the track watermark further comprises: the service flow identification and the request time of the user side for initiating the service flow processing request.

5. The method according to any one of claims 2-4, wherein the obtaining the trajectory state diagram of the service flow according to the trajectory serial number of the service flow further comprises:

and obtaining a track state diagram of the service flow according to the track serial number in the track serial number of the service flow and the log record related to the service flow.

6. The method of claim 5, wherein the obtaining the trace state diagram of the service flow according to the trace sequence number in the trace stream number of the service flow and the log record associated with the service flow further comprises:

determining an association relationship between the intermediate servers and/or an association relationship between the intermediate servers and the total server according to the track serial number in the track serial number of the service stream;

determining the transmission direction of the service flow according to the log record related to the service flow;

and obtaining a track state diagram of the service flow according to the incidence relation between the intermediate servers and/or the incidence relation between the intermediate servers and the total server and the transmission direction of the service flow.

7. A traffic flow state visualization processing apparatus, the apparatus comprising:

the detection module is suitable for detecting a service flow processing request initiated by a user side to the intermediate server;

the processing module is suitable for setting a track flow number for the service flow corresponding to the service flow processing request and updating the track flow number of the service flow according to the server information of the current intermediate server or the total server for processing the service flow;

and the generating module is suitable for obtaining the track state diagram of the service flow according to the track serial number of the service flow.

8. The apparatus of claim 7, wherein the track watermark comprises: track number; the processing module is further adapted to:

updating the track serial number in the track serial number of the service flow according to the server level of the intermediate server or the total server where the service flow is currently located; wherein the overall server has a server hierarchy level higher than the intermediate servers; the track sequence number is incremented or decremented as the server hierarchy rises.

9. A computing device, comprising: the system comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete mutual communication through the communication bus;

the memory is used for storing at least one executable instruction, and the executable instruction causes the processor to execute the operation corresponding to the business flow state visualization processing method of any one of claims 1-6.

10. A computer storage medium having at least one executable instruction stored therein, the executable instruction causing a processor to perform operations corresponding to the traffic flow state visualization processing method according to any one of claims 1 to 6.

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